Rasool Ghobadian | Automobile Engineering | Best Researcher Award

Posted on by Automobile Award

Prof. Dr. Rasool Ghobadian | Automobile Engineering | Best Researcher Award

University Professor  |  Razi university  |  Iran

Dr. Rasoul Ghobadian is a distinguished academic and researcher in the field of water engineering, specializing in advanced hydraulics, sediment transport, flood modeling, and computational hydraulics. As a professor at the Department of Water Engineering, Faculty of Agriculture, Razi University of Kermanshah, he has contributed extensively to both academia and industry through innovative research, design expertise, and teaching excellence. His professional experience spans over two decades, including collaboration with leading consulting firms such as Saman Abraha Tose, Alborz Studies, and Dezab Consulting Engineers, where he participated in large-scale irrigation and hydraulic infrastructure projects involving surface irrigation networks, diversion dams, and intake systems. Dr. Ghobadian’s research integrates theoretical modeling with practical applications, focusing on seepage loss estimation, flood routing, and the hydraulic performance of river confluences and hydraulic structures, with publications in reputed international journals such as Journal of Hydrologic Engineering, Water SA, and Alexandria Engineering Journal. His expertise encompasses computational fluid dynamics, numerical modeling, and water resource system design. Recognized for his excellence, he has received multiple awards including Best Researcher and Exemplary Teaching Professor from the Faculty of Agriculture and the Department of Water Engineering. His research has greatly influenced sustainable water resource management and hydraulic engineering education. Dr. Ghobadian’s scholarly achievements continue to advance the global understanding of hydraulic systems and water infrastructure optimization. He has achieved 136 Citations,  30 Documents, 6 h-index.

Profiles: Google Scholar  ORCID  |  Scopus

Featured Publications 

  1. Ghobadian, R., & Bajestan, M. S. (2007). Investigation of sediment patterns at river confluence. [Unpublished study]. Citations: 51

  2. Ghobadian, R., & Mohammadi, K. (2011). Simulation of subcritical flow pattern in 180° uniform and convergent open-channel bends using SSIIM 3-D model. Water Science and Engineering, 4(3), 270–283. Citations: 35

  3. Ghobadian, R., & Meratifashi, E. (2012). Modified theoretical stage-discharge relation for circular sharp-crested weirs. Water Science and Engineering, 5(1), 26–33. Citations: 21

  4. Ghobadian, R. (2007). Investigation of flow, scouring and sedimentation at river-channel confluences. Ph.D. Thesis, Department of Hydraulic Structures, Shahid Chamran University of Ahvaz. Citations: 13

  5. Mobara, S. E. H., Ghobadian, R., Rouzbahani, F., & Đorđević, D. (2021). Numerical simulation of submarine non-rigid landslide by an explicit three-step incompressible smoothed particle hydrodynamics. Engineering Analysis with Boundary Elements, 130, 196–208. Citations: 12

Dr. Rasoul Ghobadian’s pioneering research in hydraulic and sediment transport modeling enhances the understanding of river dynamics, erosion, and flood management systems. His work bridges scientific innovation with engineering practice, contributing to the sustainable design of hydraulic structures, water resource optimization, and disaster resilience for communities and industries worldwide.

 

Parinaz Hosseini | Steering Systems | Best Researcher Award

Posted on by Automobile Award

Mrs. Parinaz Hosseini | Steering Systems | Best Researcher Award

Student  |  Iran university of science and technology  |  Iran

Mrs. Parinaz Hosseini is an emerging researcher in the field of microwave and terahertz engineering, known for her focused contributions to the study and design of advanced metasurfaces and graphene-based structures. As a dedicated PhD scholar at the Iran University of Science and Technology, her research primarily explores reflectarray and transmitarray antennas operating in the terahertz frequency band, emphasizing innovations that enhance beam steering, power efficiency, and reconfigurability for next-generation communication systems. Her expertise extends to the development of hybrid graphene–metal metasurfaces, where she has made notable progress in achieving fully controllable beam-steering mechanisms at 1-THz, a pioneering advancement in the field. Parinaz’s technical acumen is supported by a strong foundation in microwave circuit design and electromagnetic simulation, with additional research experience in active and passive microwave devices and MRI power amplifiers. Her skills include computational modeling, electromagnetic wave manipulation, device optimization, and practical antenna prototyping, allowing her to bridge theoretical innovation with engineering application. Through her publications in reputable journals such as Scientific Reports and IET Microwaves, Antennas & Propagation, she has demonstrated a consistent focus on precision, creativity, and technological advancement. Though early in her career, her work reflects a growing impact within the scientific community, supported by collaborative endeavors and potential for interdisciplinary innovation in terahertz systems. Parinaz aspires to contribute to the advancement of high-frequency communication technologies and intelligent electromagnetic devices through innovative design and materials integration. Her academic integrity, research productivity, and commitment to scientific excellence make her a strong candidate for recognition through competitive awards and academic honors. She has acheived 11 Citations , 3 Documents , 1 h-index .

Profiles:  ORCID  |  Scopus

Featured Publications

  1. Hosseini, P., & Oraizi, H. (2022). Analysis and design of terahertz reflectarrays based on graphene cell clusters. Scientific Reports, 12(1), Article 22117.

  2. Hosseini, P., & Oraizi, H. (2025). Fully controllable beam-steering 1-THz transmitarray using graphene–metal hybrid metasurface. IET Microwaves, Antennas & Propagation.